Diet- and microbiota-related metabolite, 5-aminovaleric acid betaine (5-AVAB), in health and disease

5-Aminovaleric acid betaine (5-AVAB) is a trimethylated compound associated with the gut microbiota, potentially produced endogenously, and related to the dietary intake of certain foods such as whole grains. 5-AVAB accumulates within the metabolically active tissues and has been typically found in higher concentrations in the heart, muscle, and brown adipose tissue. Furthermore, 5-AVAB has been associated with positive health effects such as fetal brain development, insulin secretion, and reduced cancer risk. However, it also has been linked with some negative health outcomes such as cardiovascular disease and fatty liver disease. At the cellular level, 5-AVAB can influence cellular energy metabolism by reducing β-oxidation of fatty acids. This review will focus on the metabolic role of 5-AVAB with respect to both physiology and pathology. Moreover, the analytics and origin of 5-AVAB and related compounds will be reviewed

Consciousness, Action Selection, Meaning and Phenomenic Anticipation

Phenomenal states are generally considered the ultimate sources of intrinsic motivation for autonomous biological agents. In this article, we will address the issue of the necessity of exploiting these states for the design and implementation of robust goal-directed artificial systems. We will provide an analysis of consciousness in terms of a precise definition of how an agent "understands" the informational flows entering the agent and its very own action possibilities. This abstract model of consciousness and understanding will be based in the analysis and evaluation of phenomenal states along potential future trajectories in the state space of the agents. This implies that a potential strategy to follow in order to build autonomous but still customer-useful systems is to embed them with the particular, ad hoc phenomenality that captures the system-external requirements that define the system usefulness from a customer-based, requirements-strict engineering viewpoint

Molecular evolution of viral multifunctional proteins: the case of Potyvirus HC-Pro

[EN] Our knowledge on the mode of evolution of the multifunctional viral proteins remains incomplete. To tackle this problem, here, we have investigated the evolutionary dynamics of the potyvirus multifunctional protein HC-Pro, with particular focus on its functional domains. The protein was partitioned into the three previously described functional domains, and each domain was analyzed separately and assembled. We searched for signatures of adaptive evolution and evolutionary dependencies of amino acid sites within and between the three domains using the entire set of available potyvirus sequences in GenBank. Interestingly, we identified strongly significant patterns of co-occurrence of adaptive events along the phylogenetic tree in the three domains. These patterns suggest that Domain I, whose main function is to mediate aphid transmission, has likely been coevolving with the other two domains, which are involved in different functions but all requiring the capacity to bind RNA. By contrast, episodes of positive selection on Domains II and III did not correlate, reflecting a trade-off between their evolvability and their evolutionary dependency likely resulting from their functional overlap. Covariation analyses have identified several groups of amino acids with evidence of concerted variation within each domain, but interdomain significant covariations were only found for Domains II and III, further reflecting their functional overlappingThis work was supported by grants BFU2012-30805 (SFE) and BFU2012-36346 (MAF) from the Spanish Direccio´n General de Investigacio´n Cientı´fica y Te´cnica and by an EMBO Short-Term Fellowship and the Mentoring Program from the Foundation for Polish Science (BHJ).Hasiów-Jaroszewska, B.; Fares Riaño, MA.; Elena Fito, SF. (2014). Molecular evolution of viral multifunctional proteins: the case of Potyvirus HC-Pro. 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Antiviral Silencing and Suppression of Gene Silencing in Plants

RNA silencing is an evolutionary conserved sequence-specific gene inactivation mechanism that contributes to the control of development, maintains heterochromatin, acts in stress responses, DNA repair and defends against invading nucleic acids like transposons and viruses. In plants RNA silencing functions as one of the main immune systems. RNA silencing process involves the small RNAs and trans factor components like Dicers, Argonautes and RNA-dependent RNA poly- merases. To deal with host antiviral silencing responses viruses evolved mecha- nisms to avoid or counteract this, most notably through expression of viral suppressors of RNA silencing. Due to the overlap between endogenous and antiviral silencing pathways while blocking antiviral pathways viruses also impact endogenous silencing processes. Here we provide an overview of antiviral silencing pathway, host factors implicated in it and the crosstalk between antiviral and endogenous branches of silencing. We summarize the current status of knowledge about the viral counter-defense strategies acting at various steps during virus infection in plants with the focus on representative, well studied silencing suppres- sor proteins. Finally we discuss future challenges of the antiviral silencing and counter-defense research field

Land motor vehicle-related fatal drowning in Finland:a nation-wide population-based survey

Abstract Objective: WHO mortality statistics overlook land motor-vehicle accident (LMVA)-related drowning. The aim of the study was to provide an overview of the prevalence and trends of fatal LMVA-related drowning in Finland, plus the main crash settings, victims’ demographic characteristics, and contributing factors leading to such deaths. Methods: A descriptive, retrospective, population-based study of drowning deaths associated with LMVA among Finnish residents of all ages, 1971–2013. LMVA-related drownings and applicable variables were extracted from the Statistics Finland (SF) mortality database by cross-analysis of ICD injury- and external cause-of-death codes. Results: During the study period, 538 LMVAs leading to drowning occurred among Finnish residents (2.5/1 000 000/year; 4.9% of all unintentional drownings, 3.7% of all LMVA). Three main settings, ones responsible for over 95% of LMVA-related drownings, were recognized: traffic vehicle accidents involving a passenger car; non-traffic vehicle accident involving a snowmobile; and non-traffic accidents involving agricultural, industrial, or construction vehicles. Alcohol use was a contributing factor for death in > 40% of the victims, whereas severe injuries were reported in less than 6%. Conclusion: Because transport safety is crucial to prevent any vehicle entering the water, placing LMVA-related drowning in the category of transport accidents is warranted. Once the vehicle becomes submersed, however, prevention measures to avoid death by drowning remains decisive